Publikation:

Active Particles in Complex and Crowded Environments

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Bechinger_0-410778.pdf
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Datum

2016

Autor:innen

Di Leonardo, Roberto
Löwen, Hartmut
Reichhardt, Charles
Volpe, Giorgio
Volpe, Giovanni

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http://nbn-resolving.de/urn:nbn:de:bsz:352-0-410778
DOI (zitierfähiger Link)
https://doi.org/10.1103/RevModPhys.88.045006
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http://arxiv.org/abs/1602.00081v2

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Published

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Reviews of Modern Physics. 2016, 88(4), 045006. ISSN 0034-6861. eISSN 1539-0756. Available under: doi: 10.1103/RevModPhys.88.045006

Zusammenfassung

Differently from passive Brownian particles, active particles, also known as self-propelled Brownian particles or microswimmers and nanoswimmers, are capable of taking up energy from their environment and converting it into directed motion. Because of this constant flow of energy, their behavior can only be explained and understood within the framework of nonequilibrium physics. In the biological realm, many cells perform directed motion, for example, as a way to browse for nutrients or to avoid toxins. Inspired by these motile microorganisms, researchers have been developing artificial particles that feature similar swimming behaviors based on different mechanisms; these manmade micro- and nanomachines hold a great potential as autonomous agents for healthcare, sustainability, and security applications. With a focus on the basic physical features of the interactions of self-propelled Brownian particles with a crowded and complex environment, this comprehensive review will put the reader at the very forefront of the field, providing a guided tour through its basic principles, the development of artificial self-propelling micro- and nanoparticles, and their application to the study of nonequilibrium phenomena, as well as the open challenges that the field is currently facing.

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530 Physik

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ISO 690BECHINGER, Clemens, Roberto DI LEONARDO, Hartmut LÖWEN, Charles REICHHARDT, Giorgio VOLPE, Giovanni VOLPE, 2016. Active Particles in Complex and Crowded Environments. In: Reviews of Modern Physics. 2016, 88(4), 045006. ISSN 0034-6861. eISSN 1539-0756. Available under: doi: 10.1103/RevModPhys.88.045006
BibTex
@article{Bechinger2016-01-30T06:54:38ZActiv-39243,
  year={2016},
  doi={10.1103/RevModPhys.88.045006},
  title={Active Particles in Complex and Crowded Environments},
  number={4},
  volume={88},
  issn={0034-6861},
  journal={Reviews of Modern Physics},
  author={Bechinger, Clemens and Di Leonardo, Roberto and Löwen, Hartmut and Reichhardt, Charles and Volpe, Giorgio and Volpe, Giovanni},
  note={57 pages, 33 figures Article Number: 045006}
}
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    <dcterms:abstract xml:lang="eng">Differently from passive Brownian particles, active particles, also known as self-propelled Brownian particles or microswimmers and nanoswimmers, are capable of taking up energy from their environment and converting it into directed motion. Because of this constant flow of energy, their behavior can only be explained and understood within the framework of nonequilibrium physics. In the biological realm, many cells perform directed motion, for example, as a way to browse for nutrients or to avoid toxins. Inspired by these motile microorganisms, researchers have been developing artificial particles that feature similar swimming behaviors based on different mechanisms; these manmade micro- and nanomachines hold a great potential as autonomous agents for healthcare, sustainability, and security applications. With a focus on the basic physical features of the interactions of self-propelled Brownian particles with a crowded and complex environment, this comprehensive review will put the reader at the very forefront of the field, providing a guided tour through its basic principles, the development of artificial self-propelling micro- and nanoparticles, and their application to the study of nonequilibrium phenomena, as well as the open challenges that the field is currently facing.</dcterms:abstract>
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57 pages, 33 figures
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